Manufacturing method for upper case of strut bearing, and strut bearing

What is claimed is: 1. A manufacturing method for an upper case of a strut bearing, the strut bearing including: an upper case to be fixed to an upper end portion of a strut of a vehicle strut suspension; a lower case to be directly or indirectly connected to a coil spring disposed on an outer side of the strut; an upper raceway ring held by the upper case; a lower raceway ring held by the lower case; and a rolling element that rolls between the upper raceway ring and the lower raceway ring; the upper case and the lower case being made of a synthetic resin; and the upper case including an inclined cylindrical portion inclined with respect to a central axis of the strut bearing, the inclined cylindrical portion having an inner surface having opposing flattened portions that interrupt an otherwise continuously curved inner surface of the upper case, the manufacturing method comprising: producing the upper case by injection molding using an injection molding mold that is an axial draw mold including a fixed mold and a movable mold; and providing the fixed mold with a first half body, and providing the movable mold with a second half body, wherein the first half body and the second half body abut against each other at respective first and second inclined planes, the first half body has a first flat surface and a second flat surface disposed at opposing exterior surface portions of the first half body, the first and second flat surfaces disposed at both ends of the first inclined plane, the second half body has a third flat surface and a fourth flat surface disposed at opposing exterior surface portions of the second half body, the third and fourth flat surfaces disposed at both ends of the second inclined plane, when the first inclined plane of the first half body is mated against the second inclined plane of the second half body, the first and third flat surfaces together form a first uniform flat surface and the second and fourth flat surfaces together form a second uniform flat surface, the first and second uniform flat surfaces create the opposing flattened portions that interrupt the otherwise continuously curved inner surface of the upper case, and the first and second uniform flat surfaces are flat surfaces that prevent occurrence of undercutting when the upper case is removed from the injection molding mold. 2. The manufacturing method for an upper case of a strut bearing according to claim 1 , wherein when an inclination direction of a central axis of the inclined cylindrical portion with respect to the central axis of the strut bearing is a forward direction, the inclined plane extends in a left-right direction, an inclination angle of the inclined plane with respect to a vertical plane including the left-right direction is less than 10° if the injection molding mold is a vertical mold that opens upward and downward, and an inclination angle of the inclined plane with respect to a horizontal plane including the left-right direction is less than 10° if the injection molding mold is a horizontal mold that opens leftward and rightward. 3. The manufacturing method for an upper case of a strut bearing according to claim 1 , wherein when the fixed mold and the movable mold are cut in a plane orthogonal to a central axis of the inclined cylindrical portion in a state where the injection molding mold is closed, a length of a rectangular flat surface formed by the first flat surface and the second flat surface is less than or equal to 10% of a circumferential length of the fixed mold and the movable mold. 4. The manufacturing method for an upper case of a strut bearing according to claim 2 , wherein when the fixed mold and the movable mold are cut in a plane orthogonal to a central axis of the inclined cylindrical portion in a state where the injection molding mold is closed, a length of a rectangular flat surface formed by the first flat surface and the second flat surface is less than or equal to 10% of a circumferential length of the fixed mold and the movable mold. 5. A strut bearing comprising: an upper case to be fixed to an upper end portion of a strut of a vehicle strut suspension; a lower case to be directly or indirectly connected to a coil spring disposed on an outer side of the strut; an upper raceway ring held by the upper case; a lower raceway ring held by the lower case; and a rolling element that rolls between the upper raceway ring and the lower raceway ring, the upper case and the lower case being made of a synthetic resin, wherein the upper case includes an inclined cylindrical portion inclined with respect to a central axis of the strut bearing, and when an inclination direction of a central axis of the inclined cylindrical portion with respect to the central axis of the strut bearing is a forward direction, the upper case has rectangular flat surfaces respectively on left and right sides of a central portion in a front-rear direction on an inner diameter side of the inclined cylindrical portion.